Produção de estranheza em colisões de íons pesados relativísticos / Strangeness production in relkativistic heavy ion collisions

Vasconcelos, Geraldo Magela Severino

30 May 2008

Orientador: Jun Takahashi / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Fisica Gleb Wataghin / Made available in DSpace on 2018-08-11T10:21:35Z (GMT). No. of bitstreams: 1 Vasconcelos_GeraldoMagelaSeverino_M.pdf: 4363414 bytes, checksum: 50c5bd667b62ccab57088d6b77e1ec81 (MD5) Previous issue date: 2008 / Resumo: As colisões de íons pesados em energias relativísticas permitem estudar o comportamento da matéria nuclear em condições extremas de temperatura e alta densidade de energia. Nessas condições, espera-se uma transição de fase da matéria onde seria formado um estado de quarks e glúons livres, conhecido como Plasma de Quarks e Glúons (QGP). Com o objetivo de estudar a formação deste novo estado e suas características, o experimento STAR, situado no Laboratório Nacional de Brookhaven, Nova Iorque, mede vários canais observáveis das colisões de íons pesados. Uma das marcas da formação do QGP é o aumento da produção de estranheza. O objetivo deste trabalho foi estudar a produção dos bárions multi-estranhos X e W produzidos nas colisões de Cu+Cu com energia de 62,4 GeV=A no referencial do centro de massa (CM), medidos no experimento STAR. Foram obtidos os espectros de momento transverso dessas partículas e a partir deles foi extraída a abundância de produção por unidade de rapidez na região de rapidez central (dN=dy)y=0. A produção desses bárions foi comparada com os resultados de um outro sistema (Au+Au) na mesma energia para estudar a dependência da produção de estranheza em função do tamanho do sistema formado. Os resultados mostraram que a produção de estranheza cresce com o tamanho do sistema, e que este aumento é ligeiramente maior para o sistema de Cu+Cu do que Au+Au. Os resultados deste trabalho são inéditos e complementam um estudo sistemático da produção de estranheza. Também são importantes para a compreensão dos mecanismos de produção de estranheza em diferentes energias / Abstract: Relativistic heavy-ion collisions allow us to study the behavior of nuclear matter at extreme conditions of temperature and energy density. In these conditions, we expect a phase transition of matter where a free state of quarks and gluons would be formed, and that is known as Quark-Gluon Plasma (QGP). With the aim to study this new state of matter and its features, the STAR experiment was built at BNL (Brookhaven National Laboratory), New York. The STAR experiment measures many observables of heavy-ion collisions and in particular, the strangeness enhancement in QGP is of special interest. The aim of this work was the study of multi-strange baryon production, X and W , at collisions of Cu+Cu in the center of mass energy of 62.4 GeV=A measured at the STAR experiment. Transverse momentum spectra and integrated yields for X and W at mid-rapidity are presented in this work. We also compared Cu+Cu and Au+Au systems in order to study the dependence of strange particle production with the system size. The results showed that strangeness production enhances with the system size, and strange baryons yields in Cu+Cu are slightly larger than Au+Au for the same energy. The new results obtained here complement a systematic study of strangeness production in heavy ion collisions and are important to understand the strangeness particle production mechanism in different energies / Mestrado / Física Nuclear / Mestre em Física

Física nuclear

Partículas (Física nuclear)

Plasma de quarks e gluons

Partículas estranhas (Física nuclear)

Colisor relativístico de íons pesados

Experimento STAR

Nuclear physics

Particles (Nuclear physics)

Quark-gluon plasma

Strangeness (Nuclear physics)

Relativistic heavy ion collider

STAR experiment

Measurement of electrons from heavy-flavour hadron decays in p-Pb collisions at $\\sqrt{s_{NN}} = 5.02$ TeV using TPC and EMCal detectors with ALICE at LHC / Espectro de elétrons provenientes de hádrons que contêm quarks pesados em colisões de proton-chumbo a $\\sqrt{s_{NN}} = 5.02$~TeV usando os detetores TPC e EMCAL do ALICE no LHC

Cristiane Jahnke

02 May 2016

Heavy-ion collisions are a powerful tool to study hot and dense QCD matter, the so-called Quark Gluon Plasma (QGP). Since heavy quarks (charm and beauty) are dominantly produced in the early stages of the collision, they experience the complete evolution of the system. Measurements of electrons from heavy-flavour hadron decay is one possible way to study the interaction of these particles with the QGP. With ALICE at LHC, electrons can be identified with high efficiency and purity. A strong suppression of heavy-flavour decay electrons has been observed at high $p_{m T}$ in Pb-Pb collisions at 2.76 TeV. Measurements in p-Pb collisions are crucial to understand cold nuclear matter effects on heavy-flavour production in heavy-ion collisions. The spectrum of electrons from the decays of hadrons containing charm and beauty was measured in p-Pb collisions at $\\sqrt = 5.02$ TeV. The heavy flavour decay electrons were measured by using the Time Projection Chamber (TPC) and the Electromagnetic Calorimeter (EMCal) detectors from ALICE in the transverse-momentum range $2 < p_ < 20$ GeV/c. The measurements were done in two different data set: minimum bias collisions and data using the EMCal trigger. The non-heavy flavour electron background was removed using an invariant mass method. The results are compatible with one ($R_ \\approx$ 1) and the cold nuclear matter effects in p-Pb collisions are small for the electrons from heavy-flavour hadron decays. / Colisões de íons pesados relativísticos é uma ferramenta poderosa para se estudar o plasma de quarks e glúons (QGP). Quarks pesados ({\\it charm} e {\\it beauty}) são produzidos nos estágios iniciais da colisão e participam da evolução completa do sistema. Medidas de elétrons provenientes de quarks pesados é uma das possíveis formas de se estudar a interação destas partículas com o QGP. Utilizando o detetor ALICE do LHC, elétrons podem ser identificados com alta eficiência e boa pureza. Uma forte supressão de elétrons provenientes de quarks pesados foi observada em alto $p_$ em colisões de Pb-Pb a 2.76 TeV. Medidas do mesmo observável em colisões p-Pb são cruciais para se entender os efeitos da matéria nuclear fria na produção de tais partículas. O espectro de elétrons provenientes de hádrons que contêm {\\it charm} ou {\\it beauty} foi medido em colisões p-Pb a $\\sqrt = 5.02$ TeV. Os elétrons foram identificados utilizando o {\\it Time Projection Chamber} (TPC) e o {\\it Electromagnetic Calorimeter} (EMCal) do detetor ALICE, no intervalo de momento transversal de $2 < p_ < 20$ GeV/c. As medidas foram realizadas utilizando dois diferentes conjunto de dados: colisões de mínima tendenciosidade ({\\it minimum bias (MB)}) e colisões tomadas utilizando o trigger do EMCal. Os elétrons de fundo foram removidos utilizando um método de massa invariante. Os resultados são compatíveis com a unidade ($R_ \\approx$ 1) e os efeitos da matéria nuclear fria são pequenos para elétrons provenientes de quarks pesados.

ALICE

elétrons provenientes de quarks pesados

fator de modificação nuclear

LHC

Plasma de quarks e gluons

quarks pesados

sabor pesado

ALICE

electrons from heavy flavour

heavy flavour

heavy quarks

LHC

nuclear modification factor

Quark gluons plasma

La physique des (di)muons dans ALICE au LHC : analyse en collisions pp (√s = 7 TeV) et Pb-Pb (√sNN = 2.76 TeV) des résonances de basses masses (ρ, ω, ф) et étude d’un trajectographe en pixels de Silicium dans l’ouverture du spectromètre / The (di)muon physics in the ALICE experiment at the LHC : light vector meson analysis (ρ, ω, ф) in pp collisions (√s = 7 TeV), Pb-Pb collisions (√sNN = 2.76 TeV) and study of a new silicon tracker in the muon spectrometer acceptance

Massacrier, Laure

26 October 2011

L’expérience ALICE au LHC étudie le plasma de quarks gluons (PQG), état de la matière où quarks et gluons existent à l’état déconfinés. Une des sondes utilisée pour explorer cet état est l’étude de plusieurs résonances (ρ, ω, ф, J/ψ et Ƴ) via leur canal de désintégration dimuonique, à l’aide d’un spectromètre à muons couvrant les pseudo-rapidités -4 < η < -2.5. La première partie de la thèse se focalise sur les mésons vecteurs de basses masses (ρ, ω et ф) . Elle concerne l’analyse des données récoltées en 2010 en collisions pp à √s = 7 TeV et Pb-Pb à √sNN = 2.76 TeV. Les mésons vecteurs de basses masses sont des outils intéressants pour sonder le PQG grâce à leurs faibles durées de vie et leur canal de désintégration dimuonique non affecté par les interactions dans l’état final. Les taux de production et fonctions spectrales de ces mésons sont modifiées par le milieu hadronique chaud et le PQG. En collisions pp, les distributions du ф, du (ρ+ω) en fonction de l’impulsion transverse ainsi que les sections efficaces et sections efficaces différentielles de production des différents mésons ont été extraites. L’analyse en collisions Pb-Pb ainsi que ses perspectives sont également présentées. La seconde partie de la thèse concerne le futur de l’expérience ALICE et les plans d’amélioration des détecteurs pour l’horizon 2017. Une étude de faisabilité pour l’ajout d’un trajectographe en pixels de Silicium (MFT) à l’avant de l’absorbeur hadronique dans l’acceptance du spectromètre à muons est présentée. Les performances et améliorations apportées par le MFT dans différents canaux de physique ont été étudiées en simulation / ALICE experiment at LHC studies the Quark Gluon Plasma (QGP), a particular state of matter where quarks and gluons are deconfined. A probe to explore this state is the study of several resonances (ρ, ω, ф, J/ψ and Ƴ) through their dimuon decay channel, with a muon spectrometer covering pseudo-rapidity -4 < η < -2.5. In the first part of this thesis, the focus is on light vector mesons (ρ, ω and ф) and their analysis in the 2010 data, in pp collisions at √s = 7 TeV and Pb-Pb collisions at √sNN = 2.76 TeV. Light vector mesons are powerful tools to probe the QGP due to their short lifetime and their dimuon decay channel. Indeed, leptons have negligible final state interactions. Production rates and spectral functions of those mesons are modified by the hot hadronic and QGP medium. In pp collisions, pT distributions, production cross sections and pT-differential cross sections of the different mesons have been extracted. The Pb-Pb analysis and its prospects are also presented. The second part of the thesis concerns ALICE upgrades plans of year 2017. A feasibility study for a Muon Forward Tracker (MFT) in Silicon pixels located upstream of the hadronic absorber, in the spectrometer acceptance, was performed. Performances and improvements brought by the MFT on several physics cases were in simulations

Matière hadronique

Plasma de quarks et gluons

Expérience ALICE

Collisions d’ions lourds

Résonances de basses masses

Dimuon

Symétrie chirale

Trajectographe en pixels de Silicium

Hadronic matter

Quarks gluons plasma

ALICE experiment

Heavy ion collisions

Resonances of low mass

Dimuon

Chiral symmetry

Silicon pixels Tracker

539.75

Open heavy-flavour measurements via muons in proton-proton and nucleus-nucleus collisions with the ALICE detector at the CERN-LHC / Mesure des muons des saveurs Lourdes ouvertes dans les collisions proton-proton et noyau-noyau avec le détecteur ALICE au CERN-LHC

Zhang, Zuman

22 November 2018

Les collisions d'ions lourds ultra-relativistes ont pour objectif l'étude d'un état de matière en interaction forte dans des conditions extrêmes de densité d'énergie et température, le plasma de quarks et gluons (QGP). Les saveurs lourdes (charme et beauté) sont produites principalement lors de processus durs aux premiers instants de la collision et participent aux différentes étapes de la collision. Par conséquent, la mesure des saveurs lourdes ouvertes devrait permettre d'extraire des informations importantes concernant le système créé aux premiers instants de la collision. L'étude des collisions proton-proton (pp) fournit la référence indispensable pour la mesure des saveurs lourdes dans les systèmes lourds. Cette thèse est dédiée à l'étude de la production des muons de décroissance des hadrons charmés et beaux aux rapidités avant (2.5 < y < 4) dans les collisions pp sqrt (s) = 5.02 TeV, Pb-Pb à sqrt (sNN) = 2.76 et 5.02 TeV et Xe-Xe à sqrt (sNN) = 5.44 TeV enregistrées avec le détecteur ALICE au CERN-LHC. La mesure des sections efficaces différentielles de production des muons de décroissance des hadrons charmés et beaux dans les collisions pp à sqrt (s) = 5.02 TeV couvre un grand domaine en impulsion transverse de 2 à 20 GeV/c et ont une meilleure précision par rapport aux résultats publiés à sqrt (s) = 2.76 et 7 TeV. Les résultats sont en bon accord avec les calculs perturbatifs de QCD. Une importante suppression de la production des muons de décroissance des hadrons charmés et beaux est observée dans les collisions centrales (0-10%) Pb-Pb à sqrt (sNN) = 2.76 et 5.02 TeV. Cette suppression est attribuée au milieu dense et chaud formé dans ces collisions. L'influence de la taille du système est étudiée avec le système Xe-Xe à sqrt (sNN) = 5.44 TeV. La suppression est similaire à celle mesurée dans les collisions Pb-Pb. Les résultats obtenus dans les collisions Pb-Pb et Xe-Xe apportent des contraintes fortes aux paramètres des modèles. / The study of ultra-relativistic heavy-ion collisions aims at investigating a state of strongly-interacting matter at high energy density and temperature, the Quark-Gluon Plasma (QGP). Heavy quarks (charm and beauty) are predominantly produced in initial hard scattering processes during the early stage of the collisions and experience the full evolution of the medium. Therefore, the measurement of open heavy flavours should provide essential information on the QGP properties. Similar measurements in small systems are also essential for a comprehensible understanding of the QGP properties. The study of open heavy flavours in proton-proton (pp) collisions provides the mandatory reference for measurements in heavy-ion collisions. This thesis presents measurements of the production of muons from heavy-flavour hadron decays at forward rapidity (2.5 < y < 4) in pp collisions at sqrt (s) = 5.02 TeV, Pb-Pb collisions at sqrt (sNN) = 2.76 and 5.02 TeV and Xe-Xe collisions at sqrt (sNN) = 5.44 TeV collected with the ALICE detector at the CERN-LHC. The differential production cross sections of muons from heavy-flavour hadron decays in pp collisions at sqrt (s) = 5.02 TeV are obtained in a wide transverse momentum interval, 2 < pT < 20 GeV/c, and with an improved precision compared to the previously published measurements at sqrt (s) = 2.76 and 7 TeV. The measurements are described within uncertainties by predictions based on perturbative QCD. A strong suppression of the yield of muons from heavy-flavour decays is observed in the 10% most central Pb-Pb collisions at both sqrt (sNN) = 2.76 and 5.02 TeV. This suppression is due to final-state effects induced by the hot and dense medium. The suppression in Xe-Xe collisions is similar to that observed with Pb-Pb collisions. The comparison in the two colliding systems provides insight in the path-length dependence of medium-induced parton energy loss. The results constrain model calculations.

Collisions d'ions lourds

ALICE

LHC

Facteur de modification nucléaire RAA

Calculs perturbatifs QCD

Modèles de transport

Plasma de Quarks et Gluons (QGP)

Collisions pp

Quark-Gluon Plasma (QGP)

ALICE

LHC

Pp and heavy-ion collisions

Nuclear modification factor (RAA)

Perturbative QCD

Transport models